Search results for "Android apps pro"
UFactory UFactory uArm Swift Pro
The uArm Swift Pro is a high quality robotic arm that can be used in a wide range of applications. The uArm Swift Pro was developed and optimized for use in education, which means that many packages are already available for open source platforms such as ROS. The uArm Swift Pro has a position repeatability of 0.2 mm and is also equipped with a stepper motor and a 12-bit encoder. These are just a few reasons that make the uArm Swift Pro an excellent choice for educational use. Another great feature is the 3D printing kit that converts the uArm Swift Pro into a 3D printer in less than 1 minute. The uArm supports the following development platforms/systems: UFACTORY SDK Arduino Python ROS GRABCAD OpenMV Smartphone App The smartphone app for iOS is already available in the App Store and enables easy control and monitoring of the robotic arm. The app for Android is in development and will be available soon. An example of the Machine Vision The following GIF shows the uArm in combination with the OpenMV Machine Vision Cam M7 and the facial recognition applications that can be implemented in MicroPython. Specifications Degrees of Freedom: 4 Repeatability: Up to 0.2 mm Payload: 500 g Working Range: 50-320 mm Positioning Speed: 100 m/s Position Feedback: 12-bit Encoder Dimensions: 150 x 140 x 281mm Weight: 2.2 kg Included UFactory uArm Swift Pro Body Bluetooth & Vacuum Gripper Downloads Datasheet
€ 939,00
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MIT App Inventor Projects
50+ Android Apps with Raspberry Pi, ESP32 and Arduino This book is about developing apps for Android compatible mobile devices using the MIT App Inventor online development environment. MIT App Inventor projects can be in either standalone mode or use an external processor. In standalone mode, the developed application runs only on the mobile device (e.g. Android). In external processor-based applications, the mobile device communicates with an external microcontroller-based processor, such as Raspberry Pi, Arduino, ESP8266, ESP32, etc. In this book, many tested and fully working projects are given both in standalone mode and using an external processor. Full design steps, block programs, circuit diagrams, QR codes and full program listings are given for all projects. The projects developed in this book include: Using the text-to-speech component Intonating a received SMS message Sending SMS messages Making telephone calls using a contacts list Using the GPS and Pin-pointing our location on a map Speech recognition and speech translation to another language Controlling multiple relays by speech commands Projects for the Raspberry Pi, ESP32 and Arduino using Bluetooth and Wi-Fi MIT APP Inventor and Node-RED projects for the Raspberry Pi The book is unique in that it is currently the only book that teaches how to develop projects using Wi-Fi and Node-RED with MIT App Inventor. The book is aimed at students, hobbyists, and anyone interested in developing apps for mobile devices. All projects presented in this book have been developed using the MIT App Inventor visual programming language. There is no need to write any text-based programs. All projects are compatible with Android-based mobile devices. Full program listings for all projects as well as detailed program descriptions are given in the book. Users should be able to use the projects as they are presented, modifying them to suit their own needs.
€ 34,95€ 14,95
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Elektor Digital MIT App Inventor Projects (E-book)
50+ Android Apps with Raspberry Pi, ESP32 and Arduino This book is about developing apps for Android compatible mobile devices using the MIT App Inventor online development environment. MIT App Inventor projects can be in either standalone mode or use an external processor. In standalone mode, the developed application runs only on the mobile device (e.g. Android). In external processor-based applications, the mobile device communicates with an external microcontroller-based processor, such as Raspberry Pi, Arduino, ESP8266, ESP32, etc. In this book, many tested and fully working projects are given both in standalone mode and using an external processor. Full design steps, block programs, circuit diagrams, QR codes and full program listings are given for all projects. The projects developed in this book include: Using the text-to-speech component Intonating a received SMS message Sending SMS messages Making telephone calls using a contacts list Using the GPS and Pin-pointing our location on a map Speech recognition and speech translation to another language Controlling multiple relays by speech commands Projects for the Raspberry Pi, ESP32 and Arduino using Bluetooth and Wi-Fi MIT APP Inventor and Node-RED projects for the Raspberry Pi The book is unique in that it is currently the only book that teaches how to develop projects using Wi-Fi and Node-RED with MIT App Inventor. The book is aimed at students, hobbyists, and anyone interested in developing apps for mobile devices. All projects presented in this book have been developed using the MIT App Inventor visual programming language. There is no need to write any text-based programs. All projects are compatible with Android-based mobile devices. Full program listings for all projects as well as detailed program descriptions are given in the book. Users should be able to use the projects as they are presented, modifying them to suit their own needs.
€ 29,95
Members € 23,96
FNIRSI FNIRSI IR40 Laser Rangefinder (40 m)
The FNIRSI IR40 is a compact, high-precision and fast distance measuring device with Bluetooth integration, rechargeable battery, USB-C charging port and app connection. Features It features a high precision of ±2 mm, up to 40 m measurement range, and an 8 cm skin-friendly feeling. With an intelligent algorithm, it will make the distance measurement in an instant. Has versatile functions, including single measurement, multiple measurements, area measurement, volume measurement, Pythagorean, second Pythagorean, front and rea reference, and unit switching. FNIRSI IR40 laser rangefinder is equipped with a ROHM acceleration sensor, realizes auto flip. Built-in 400 mAh battery, it can be charged with a USB-C charging port quickly. When fully charged, it can offer up to 3000 times of continuous measurement. It supports Android & iOS systems, and Link APP to realize functions such as data synchronization/remarks, length/area/volume calculation, floor plan drawing, real-time recording, etc. Specifications Measurement range 0.05~40 m Measurement accuracy ±2 mm Laser type 620-670 nm Measurement time 0.1~3s Resolution 1 mm Units m/ft/in Dimensions 79 x 34.5 x 19 mm Included FNIRSI IR40 Rangefinder USB cable Manual Downloads Manual Android App iOS App
€ 34,95
Members € 31,46
IoTize IoTize TapNLink Primer NFC-BLE-WiFi Evaluation Kit
With TapNLink Primer, it takes just minutes for system designers to create their first IoT proofs-of-concept. The Primer connects microcontroller-based systems to mobile devices via Wi-Fi, Bluetooth Low Energy (BLE) or Near Field Communication (NFC) interface. Users can rapidly and easily create Human-Machine Interfaces (HMI) that run as mobile apps for any microcontroller-based system. The Primer connects to a target MCU using only 2 GPIO and either: Serial protocol (S3P – Sofware Secure Serial Protocol) SWD (debug) protocol for ARM Cortex M-based microcontrollers The Primer implements by configuration only. There is no coding or hardware to design. Just specify the variables in the target system, set access rights and display parameters. The Primer's configuration software, IoTize Studio, automatically generates the HMI for your mobiles (Android, iOS). In just minutes, you will be able to connect a mobile to your microcontroller application, and view, or change data from your mobile app. Physical Characteristics PCB dimensions: 38 mm x 28 mm x 3 mm Security Features Configurable access profiles Configurable, encrypted passwords Configurable BLE pairing using NFC Mobile Platform Support HTML5 web apps Cordova-based hybrid apps (native, Java) Automatic app generation (Android, iOS) Included 1x TapNLink wireless module (Wi-Fi, BLE, NFC interfaces) 1x ABS plastic cover 1x Six-probe connection cable 1x STM32 sample application board and software FREE Supporting Software IoTize Studio configuration software for Windows PCs Tap Manager app for mobile devices (Android, iOS) Arduino Tap library for Arduino integration (on GitHub) MQTT relay (open source) The TapNLink Primer also includes sample microcontroller application firmware for all STM32 microcontrollers and an accompanying Sensor Demo app for Android and iOS mobiles to help you get started.
€ 59,95
Members € 53,96
Elektor Digital Get Started with the SensorTile.box (E-book)
STmicroelectronics’ wireless IoT & wearable sensor development kit ‘SensorTile.box’ is a portable multi-sensor circuit board housed in a plastic box and developed by STMicroelectronics. It is equipped with a high-performance 32-bit ARM Cortex-M4 processor with DSP and FPU, and various sensor modules, such as accelerometer, gyroscope, temperature sensor, humidity sensor, atmospheric pressure sensor, microphone, and so on. SensorTile.box is ready to use with wireless IoT and Bluetooth connectivity that can easily be used with an iOS or Android compatible smartphone, regardless of the level of expertise of the users. SensorTile.box is shipped with a long-life battery and all the user has to do is connect the battery to the circuit to start using the box. The SensorTile.box can be operated in three modes: Basic mode, Expert mode, and Pro mode. Basic mode is the easiest way of using the box since it is pre-loaded with demo apps and all the user has to do is choose the required apps and display or plot the measured data on a smartphone using an app called STE BLE Sensor. In Expert mode users can develop simple apps using a graphical wizard provided with the STE BLE Sensor. Pro mode is the most complex mode allowing users to develop programs and upload them to the SensorTile.box. This book is an introduction to the SensorTile.box and includes the following: Brief specifications of the SensorTile.box; description of how to install the STE BLE Sensor app on an iOS or Android compatible smartphone required to communicate with the box. Operation of the SensorTile.box in Basic mode is described in detail by going through all of the pre-loaded demo apps, explaining how to run these apps through a smartphone. An introduction to the Expert mode with many example apps developed and explained in detail enabling users to develop their own apps in this mode. Again, the STE BLE Sensor app is used on the smartphone to communicate with the SensorTile.box and to run the developed apps. The book then describes in detail how to upload the sensor data to the cloud. This is an important topic since it allows the sensor measurements to be accessed from anywhere with an Internet connection, at any time. Finally, Pro mode is described in detail where more experienced people can use the SensorTile.box to develop, debug, and test their own apps using the STM32 open development environment (STM32 ODE). The Chapter explains how to upload the developed firmware to the SensorTile.box using several methods. Additionally, the installation and use of the Unicleo-GUI package is described with reference to the SensorTile.box. This PC software package enables all of the SensorTile.box sensor measurements to be displayed or plotted in real time on the PC.
€ 24,95
Members € 19,96
Get Started with the SensorTile.box
STmicroelectronics’ wireless IoT & wearable sensor development kit ‘SensorTile.box’ is a portable multi-sensor circuit board housed in a plastic box and developed by STMicroelectronics. It is equipped with a high-performance 32-bit ARM Cortex-M4 processor with DSP and FPU, and various sensor modules, such as accelerometer, gyroscope, temperature sensor, humidity sensor, atmospheric pressure sensor, microphone, and so on. SensorTile.box is ready to use with wireless IoT and Bluetooth connectivity that can easily be used with an iOS or Android compatible smartphone, regardless of the level of expertise of the users. SensorTile.box is shipped with a long-life battery and all the user has to do is connect the battery to the circuit to start using the box. The SensorTile.box can be operated in three modes: Basic mode, Expert mode, and Pro mode. Basic mode is the easiest way of using the box since it is pre-loaded with demo apps and all the user has to do is choose the required apps and display or plot the measured data on a smartphone using an app called STE BLE Sensor. In Expert mode users can develop simple apps using a graphical wizard provided with the STE BLE Sensor. Pro mode is the most complex mode allowing users to develop programs and upload them to the SensorTile.box. This book is an introduction to the SensorTile.box and includes the following: Brief specifications of the SensorTile.box; description of how to install the STE BLE Sensor app on an iOS or Android compatible smartphone required to communicate with the box. Operation of the SensorTile.box in Basic mode is described in detail by going through all of the pre-loaded demo apps, explaining how to run these apps through a smartphone. An introduction to the Expert mode with many example apps developed and explained in detail enabling users to develop their own apps in this mode. Again, the STE BLE Sensor app is used on the smartphone to communicate with the SensorTile.box and to run the developed apps. The book then describes in detail how to upload the sensor data to the cloud. This is an important topic since it allows the sensor measurements to be accessed from anywhere with an Internet connection, at any time. Finally, Pro mode is described in detail where more experienced people can use the SensorTile.box to develop, debug, and test their own apps using the STM32 open development environment (STM32 ODE). The Chapter explains how to upload the developed firmware to the SensorTile.box using several methods. Additionally, the installation and use of the Unicleo-GUI package is described with reference to the SensorTile.box. This PC software package enables all of the SensorTile.box sensor measurements to be displayed or plotted in real time on the PC.
€ 29,95€ 9,95
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IoTize IoTize TapNLink WiFi, BLE, NFC
TapNLink modules provide wireless interfaces for linking electronic systems to mobile devices and the Cloud. TapNLink connects directly to the target system's microcontroller. It integrates into and is powered by the target system. All TapNLink products are easily configured to control access by different types of users to data in the target system.TapNLink facilitates rapid creation of Human Machine Interfaces (HMI) that run on Android, iOS and Windows mobiles. HMI apps are easily customized for different users and can be deployed and updated to keep pace with evolving system requirements and user needs.TapNLink Wi-Fi modules can also be configured to connect the target system permanently to a wireless network and the Cloud. This enables permanent logging of target system data and alarms.Features Wireless Channels Wi-Fi 802.11b/g/n Bluetooth Low Energy (BLE 4.2) Near Field Communication (NFC) Type5 tag (ISO/IEC 15693) Supported Target Connections: Connects on 2 GPIO of the target microcontroller and supports: Serial interface with Software Secure Serial Port (S3P) protocol Serial interface with ARM SWD debug protocol. UART with Modbus protocol Mobile Platform Support HTML5 web apps (Android, iOS) API for Cordova (Android, iOS, Windows 10) Java (Android, iOS native) Auto-app generator for Android and iOS mobiles Security Configurable access profiles Configurable, encrypted passwords AES-128/256 module-level data encryption Configurable secure pairing with NFC Dimensions: 38 mm x 28 mm x 3 mm Electrical Characteristics Input voltage: 2.3V to 3.6 V Low power consumption: Standby: 100 µA NFC Tx/Rx: 7 mA Wi-Fi Rx: 110 mA Wi-Fi Tx : 280 mA (802.11b) Temperature Range: -20°C - +55°C Compliance CE (Europe), FCC (USA), IC (Canada) REACH RoHS WEEE Ordering Information Base Part Number: TnL-FIW103 MOQ: 20 modules TapNLink modules pre-qualified, pre-programmed and ready to configure. IoTize Studio configuration and testing software Software for HMI on mobile devices (iOS, Android, Windows 10) IoTize Cloud MQTT infrastructure (open source) For more information, check out the datasheet here.
€ 32,95
Members € 29,66
Elektor Digital Elektor March/April 2024 PDF (EN)
Elektor GREEN and GOLD members can download their digital edition here. Not a member yet? Click here. CaptureCountAn Object Detector and Counter on the Raspberry Pi 5 Voltage Reference With Arduino Pro MiniLinearize and Calibrate Your Analog Inputs FPGAs for BeginnersThe Path From MCU to FPGA Programming Update: STM32 Wireless Innovation Design Contest 2024 Bluetooth LE With MAUIControl Apps for Android & Co. Port-Expanding Breakout BoardIncrease the Number of I/Os on Your Dev Board AI SpecialistMachine Learning with the Jetson Nano 2024: An AI OdysseyFirst Forays Into TensorFlow 262,144 Ways to Play The Game of LifeA Reader’s Project in Brief From Life’s ExperienceThe Chinese Dragon Get Your (Brushed DC) Motor Running!Sample Projects from the Elektor Motor Control Development Bundle ESP32-RS-232 AdapterA Wireless Link for Classic Test Equipment Starting Out in Electronics……More About Opamps ESP Library Recommendations Piezoelectric DevicesPeculiar Parts, the Series A Smart Object CounterImage Recognition Made Easy with Edge Impulse Resolve Your Trickiest Embedded Development Challenges ESP32 TerminalA Handheld Device with a Touch-Capable Display Getting Started With the Zephyr RTOSAs Powerful as It Is Hard to Master Award-Winning EthicsA Dialog with CTO Alexander Gerfer of Würth Elektronik eiSos on Enabling Innovation and Mindful Behavior Err-lectronicsCorrections, Updates, and Readers’ Letters Infographics: Embedded and AI Square Wave Generation BenchmarksExploring ESP32, Pico, and Other Microcontrollers
€ 7,50
Members € 6,75
Elektor March/April 2024 (EN)
Elektor GREEN and GOLD members can download their digital edition here. Not a member yet? Click here. CaptureCountAn Object Detector and Counter on the Raspberry Pi 5 Voltage Reference With Arduino Pro MiniLinearize and Calibrate Your Analog Inputs FPGAs for BeginnersThe Path From MCU to FPGA Programming Update: STM32 Wireless Innovation Design Contest 2024 Bluetooth LE With MAUIControl Apps for Android & Co. Port-Expanding Breakout BoardIncrease the Number of I/Os on Your Dev Board AI SpecialistMachine Learning with the Jetson Nano 2024: An AI OdysseyFirst Forays Into TensorFlow 262,144 Ways to Play The Game of LifeA Reader’s Project in Brief From Life’s ExperienceThe Chinese Dragon Get Your (Brushed DC) Motor Running!Sample Projects from the Elektor Motor Control Development Bundle ESP32-RS-232 AdapterA Wireless Link for Classic Test Equipment Starting Out in Electronics……More About Opamps ESP Library Recommendations Piezoelectric DevicesPeculiar Parts, the Series A Smart Object CounterImage Recognition Made Easy with Edge Impulse Resolve Your Trickiest Embedded Development Challenges ESP32 TerminalA Handheld Device with a Touch-Capable Display Getting Started With the Zephyr RTOSAs Powerful as It Is Hard to Master Award-Winning EthicsA Dialog with CTO Alexander Gerfer of Würth Elektronik eiSos on Enabling Innovation and Mindful Behavior Err-lectronicsCorrections, Updates, and Readers’ Letters Infographics: Embedded and AI Square Wave Generation BenchmarksExploring ESP32, Pico, and Other Microcontrollers
€ 10,95
Members € 9,86
PeakTech PeakTech 3440 Multimeter with Bluetooth & Datalogger
This innovative graphical multimeter convinces through its modern design and the high variety of measurement functions, as well as the consistent design only to the latest technical achievements.The backlit TFT color display shows the various menus of the graphical user interface, the measurement points of the data logger recording, and the measured values of the multimeter function with its reliable, high precision 4 5/6-digits LCD display.The resulting measurement data can be displayed and saved via Bluetooth by an App (iOS / Android) on your smart-phone. In addition, the new PeakTech multimeter app has the ability to forward the data directly from the mobile phone by e-mail or to save it as a data table.Due to the extensive measurement capabilities and intuitive operation mode, this device is well suited for each professional repairman, electronic engineers or technicians who are interested in a sturdy, highly precise and technically powerful multimeter. 4 5/6-digits measurement value display (max. 49999) 5.6 cm (2.2') TFT color display with backlighting Graphical user interface with menu control Data logger function with graph Internal memory for 10.000 measured values (Datalogger 20.000) Bluetooth interface for data transfer to a smart-phone via Android or iOS App App for smart-phones to download Lithium-Polymer Battery - Runtime ~ 8h Safety: TÜV/GS, EN 61010-1; CAT III 1000 V / CAT IV 600 V Accessories: Carrying case, Test leads, K-type thermocouple, 7.4 V Li-Ion battery, Battery charge adapter and manual Specifications DCV 500mV / 5 / 50 / 500 / 1000 V +/-0,05% + 5 dgt. ACV 500mV / 5 / 50 / 500 / 1000 V +/-0,5% + 5 dgt. Frequency range 50 Hz … 20 kHz ACV+DCV 5 / 50 / 500 / 1000 V +/-1,2% + 20 dgt. Frequency range 50 Hz … 5 kHz DCA 500 / 5000µA / 50 / 500 mA / 10 A +/-0,2% + 5 dgt. ACA 500 / 5000µA / 50 / 500 mA / 10 A +/-0,8% + 5 dgt. Frequency range 50 Hz … 5 kHz Ohm 500 Ω / 5 / 50 / 500 kΩ / 5 / 50 MΩ +/-0,2% + 5 dgt Capacitance 5 / 50 / 500 nF / 5 / 50 / 500 µF / 10 mF +/-1,0% + 5 dgt. Frequency 80 Hz … 10 MHz +/-0,01% + 5 dgt. Temperature -100.0 °C … +1350 °C +/-1,0% + 3 °C Operating Voltage 7.4 V-Li-Ion Battery Dimensions (WxHxD) 80 x 175 x 50 mm Weight 400 g
€ 219,00
Members € 197,10
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, by Jean-François Simon Fnirsi FNB58 USB Tester (Review)
The Fnirsi FNB58 is a versatile USB tester for voltage, current, and energy measurements, with many advanced features. Let’s try it out!